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Papers from the fall 1994 symposium present research and developments from academia, government, organizations, and industry in ferroelectric thin films, organized in sections on characterization, layered structure ferroelectrics, photonic phenomena, process integration, dram thin film technology, solution deposition, and piezoelectric and IR thin film technology. Highlights include the first public technical disclosures of Y1 nonvolatile memory material. Annotation copyright by Book News, Inc., Portland, OR
The past five years have witnessed some dramatic developments in the general area of ferroelectric thin films materials and devices. Ferroelectrics are not new materials by any stretch ofimagination. Indeed, they have been known since the early partofthis century and popular ferroelectric materials such as Barium Titanate have been in use since the second world war. In the late sixties and seventies, a considerable amountofresearch and development effort was made to create a solid state nonvolatile memory using ferroelectrics in a vary simple matrix-addressed scheme. These attempts failed primarily due to problems associated with either the materials ordue to device architectures. The early eighties saw the advent of new materials processing approaches, such as sol-gel processing, that enabled researchers to fabricate sub-micron thin films of ferroelectric materials on a silicon substrate. These pioneering developments signaled the onsetofa revival in the areaofferroelectric thin films, especially ferroelectric nonvolatile memories. Research and development effort in ferroelectric materials and devices has now hit a feverish pitch, Many university laboratories, national laboratories and advanced R&D laboratories oflarge IC manufacturers are deeply involved in the pursuit of ferroelectric device technologies. Many companies worldwide are investing considerable manpower and resources into ferroelectric technologies. Some have already announced products ranging from embedded memories in micro controllers, low density stand-alone memories, microwave circuit elements, andrf identification tags. There is now considerable optimism that ferroelectric devices andproducts will occupy a significant market-share in the new millennium.
Frontiers of Thin Film Technology, Volume 28 focuses on recent developments in those technologies that are critical to the successful growth, fabrication, and characterization of newly emerging solid-state thin film device architectures. Volume 28 is a condensed sampler of the Handbook for use by professional scientists, engineers, and students involved in the materials, design, fabrication, diagnostics, and measurement aspects of these important new devices.
The highly industrialized world we live in depends for its survival and further growth on advanced electronic technologies which place a premium on rapidly improved performance versus size, weight, and cost. Small computers, high-definition TV, digital camcorders, flat-panel displays, and robotic systems are but a few examples of miniatured device technologies which are of critical importance to emerging societal, industrial, defense, and space needs. All of these technologies depend sensitively on the availability of miniature thin film components in array and/or integrated formats. This book provides that first multi-topical coverage of the semiconductor, optical, superconductor, magnetic, and ferroelectric devices and technologies responding to these needs. This book comprises five topical volumes edited by world authorities in their fields, id est semiconductor junction devices, semiconductor optics, superconducting film devices, magnetic film devices, and ferroelectric film devices. Well-known experts were invited to cover recent progress in aspects ranging from deposition and fabrication to device modeling, measurements, and new cutting-edge design approached for improved performance. This multitopic approach effectively demonstrates the broad-based and pervasive character of thin film techniques that impact and control a vast array of device functions that are critical to developments in computer technology, communications, television, defense and space systems, and industrial and consumer products. Readers are provided with both broad critical overviews and research level analysis and technical details. Key Features * A comprehensive discussion of the most promising and completely developed of thin film devices which impact the entire field of high-tech components and systems for commercial, defense and space applications * Edited and written by internationally known, authoritative experts and innovators, familiar with all aspects of research and development in their fields and with current and potential applications * Presents the reader with informed assessments of all candidate solid state film devices now being optimized for advanced application, e.g., in flat panel displays, solar energy conversion, high-speed and power components, radar technology, infrared imaging , advanced computers, laser sources, and numerous other arenas * Provides a well-balanced coverage of materials growth and optimization, thin-film device modelling , device fabrication and characterization, and future development directions;These inputs are critically important to both educators, designers, device technologists and manufacturers, and to system engineers * Furnishes useful insights on processing compatibility, materials and film device stability, interface engineering, cryogenic requirements and operation, lithography and micro-machining, and integrability for sub-systems * Provides a broad-based view of alternative and/or complimentary film device technologies in a single, well-referenced source * Ensures complete and detailed overview of solid-state device topics, comprehensive bibliographical information, and expert guidance in advanced and sophisticated areas of device technology and potental applications * Furnishes invaluable insights on competitive state-of-the-art thin film semiconductor, photonics, superconductor, magnetic and ferroelectric technologies, processing and compatibility,device options, performance potential and prospects for essentially all solid-state film components * An essential information source and primer for educators , researchers, engineers and technology leaders supplying a wealth of background theoretical and experimental details, as well as guidance for further advanced research and development , thesis topics and high-tech product design * Identifies key processing, fabrication, design, integration, compatibility problems and solutions involved in successful development of high-performance and stable device and sub-system architectures.
The MRS Symposium Proceeding series is an internationally recognised reference suitable for researchers and practitioners.